DE677138C - Device for sending energy pulses at periodically recurring intervals that can be regulated as required - Google Patents

Description

Device for sending energy pulses in periodically recurring, Time intervals that can be regulated as required. Transmitting devices are already known of energy impulses at adjustable time intervals with steel balls or equivalent Solid bodies from a first container compartment are successively transferred into a second one and on this transfer route at the time intervals corresponding to their storage Close and open circuits using a feeler lever.

The subject of the invention is one which works in the manner of a counter Device for sending an electrical, mechanical or optical energy pulse at a periodically recurring, adjustable time interval at which steel balls or equivalent solid bodies are also used that consist of a first container compartment are successively transferred into a second one. The peculiarity the device is that by the transfer means a certain number solid body, preferably steel balls, from the first container compartment one at a time to be transferred into "the second and after the transfer of the last solid body into the second compartment at the point where the transfer means now no ball o. The like. Has an electrical, mechanical or optical sensing device in Activity occurs and an energy pulse of any kind, e.g. B. a current pulse, triggers through which all steel balls from the second container compartment into the first be transported back and operated at the same time a control switch at the receiving point will. For example, the accompanying drawing illustrates one Embodiment of the subject matter of the invention.

Fig. I shows the device in a longitudinal view.

Fig.2 corresponds to the illustration according to Fig. I, but shows the fixed one Ball container and the rotatable hollow cylinder encompassing this in axial section.

Fig.3 is a cross-section along line III-III in Fig. 2, seen in Direction of arrow. Fig.4 corresponds to the cross section according to Fig.3, but shows the rotatable one Hollow cylinder and the current switching means cooperating with this in more effective Position.

Fig. 5 and 6 show, enlarged to scale, in longitudinal and in cross-section structural details of the fixed spherical container.

In a stand 2 resting on a base plate i is on a shaft 3 a hollow cylinder 4 is rotatably mounted in a fixed manner. This hollow cylinder 4 includes concentrically a fixed spherical container 6 carried by a support 6, which also has the shape of a hollow cylinder. In this ball bucket 5 protrudes through a slot 12 of the front. wall through (Fig.2) a retractable, on the free end of a rod g slidably mounted in an eye bearing 8 Dividing plate 7 into it, which divides the ball container into an upper and a lower compartment Splits. This rod g is controlled by a pull magnet io, with its armature 1 i it is firmly connected.

In the outer surface of the jacket of the rotatable hollow cylinder 4 is a Ring groove 13 screwed in. At one point of its circumference this annular groove 13 is with a Flat 14 provided. In the middle of this flat there is a Wall of the rotatable hollow cylinder 4 radially drilled hole 15, which is after the Hohläylindermitte expanded to a funnel shape and is dimensioned so that it is from the provided in a certain number of balls with each revolution of the hollow cylinder 4 one able to absorb.

In the lower half of the cylindrical wall of the fixed Ball container 5, an elongated slot 16 is provided (Fig. 5 and 6), which expediently extends over 1/8 of the circumference of the spherical container wall, for example from the lowest point in the opposite direction to the direction of rotation. In the lower half of the ball container 5 an inclined surface 17 is also installed, which ensures that of the balls even the last one gets safely and properly into the hole 15. In the ring groove 13 engages a sensing lever 18, which is swingable on a fixed pin i9 is hung. A second arm 2o is firmly connected to this one feeler lever. When the feeler lever 18 grinds on the cylindrical part of the annular groove 13 and in the hole 15 (the so-called. Take-away cell) sticks a ball, the arm 2o the resilient tongue 21 kept out of contact with the contact pin 22 (Fig.3). Plugged on the other hand, if there is no ball in the entrainment cell 15, the feeler lever 18 rests against it the flat 14 as soon as it brushes past him. Here go the feeler 18 and the arm 2o in the position according to Figure 4, so that the resilient tongue 21 to the contact pin 22 puts, which in turn has the consequence that on the one hand over the network the circuit 23, 23 containing the coil of the magnet, on the other hand that in the shunted circuit 24,24 located control switch of the apparatus to be operated at the receiving point (Storage device, registration device, etc.) is closed.

The device described works as follows: If z. B. after every tenth rotation of the shaft 3 a current pulse is sent to the Erupfangsstelle nine balls are placed in the lower half of the fixed ball container 5 and then sets the shaft 3 with the hollow cylinder 4 sitting on it in rotary motion (Direction of arrow). Once the take-away cell 15 under the slot 16 of the fixed Ball container 5 arrives (Fig. 5 and 6), a ball falls into the same and goes into the position shown in Fig. When turning further of the hollow cylinder ¢, this sphere is formed by the outer surface of the spherical container 5 prevented from retreating, so that when swiping past the feeler lever 18 makes it impossible for this to counteract under the action of the resilient tongue 21 to lay the flat 14 of the hollow cylinder 4. As soon as the take-away point 15 the has exceeded the upper edge 5 'of the spherical container 5, the one in it falls Ball on the cutting plate 7, d. H. into the upper compartment of the spherical container 5. As the hollow cylinder continues to rotate, a second ball enters the driving cell 15, and the process then takes place again in the manner just described from and so on until all nine balls are transferred to the upper compartment of the ball container have been. The one that sweeps past the feeler lever 18 as the hollow cylinder 4 continues to rotate Flattening 14 now allows this feeler lever, which is no longer obstructed by a ball, swing out to the right under the action of the resilient tongue 21 and thereby in the position shown in Fig. 4, in which the contact pin 22 the circuit 23, 23 and at the same time also the shunt pin 24, 24 can be closed over the network. The closing of the circuit 23, 23 causes the excitation of the coil of the magnet i o, what the attraction of the armature i i and hence the emergence of the cutting plate 7 from the spherical container 5 has the consequence. at This retraction of the cutting plate 7 all balls fall from the upper ball container compartment into the lower container compartment, and the device can after through the Closure of the shunt circuit 24,24 also the control switch at the receiving point to be operated device has come into effect, without interruption Start the work cycle again by reopening circuits 23, 23 and 24, 24, to then continue in the manner described above. It shines without further ado that you have it in your hand, by choosing the right number of balls, the time intervals to change the current pulses to be sent as desired.

Of course, other solid bodies can also be used instead of the balls used and to implement the idea of the invention in reality other embodiments than the one just described. The sensing device can in particular instead of introducing electrical forces to trigger mechanical forces or optical forces Radiant energy to be set up.

Claims (3)

PATENT CLAIMS: i. Device for sending energy pulses in periodically recurring, as required adjustable time intervals, at which fixed Bodies, like steel balls, sequentially from a first container compartment to a second are transferred, characterized in that a transfer means a certain number of solid bodies, preferably steel balls, from the first container compartment be transferred individually one after the other to the second and after transferring the last solid body in the second compartment at the point where the transfer means now does not have a ball or the like, an electrical, mechanical or optical sensing device comes into action and an energy pulse of any kind, z. B. a current pulse, triggers through which all steel balls are released at the same time. the second container compartment in the first to be returned and a control switch operated at the receiving point will. 2. Apparatus according to claim i, characterized in that the two container compartments by a protruding into a stationary hollow cylinder (5) when a Pull magnets (10, 11) are formed from this receding cutting plate (7) and uin this stationary hollow cylinder (5) a hollow cylinder (4) continuously for transfer of steel balls is rotated from the first container compartment into the second, which after transferring the last steel ball to close the circuits (23, 23 and 24, 24) releases a feeler lever (18, 2o) at the point where the steel ball is missing. 3. Device according to claims i and 2, characterized in that by the at the end of each periodically recurring time interval or work process Energy pulse the filled second container compartment into the first without interruption the rotation of the hollow cylinder (4) is emptied within the period of time that lies between two closings of the circuit and a setting of the device corresponds to zero.